Spliced Wall Panel

ABSTRACT

A spliced wall panel comprises at least one layer of frame bodies stacked in sequence; the frame body is formed by splicing several boards sequentially, and buckles are provided at the joint of adjacent boards; inclined structures are oppositely arranged on both sides of the board, and a positioning protrusion and a positioning groove that fit each other are formed on the oppositely arranged inclined structures respectively; a horizontal mounting groove is formed on the top of the inner wall of the board, and a mating groove matching the mounting groove is formed on the outer wall at the bottom of the board; fitting blocks that match the buckles are formed on both sides of the outer wall of the board. The frame structure formed from multiple boards meets the requirements of the wall panel and can be stacked into a multi-layer frame structure based on actual needs.

TECHNICAL FIELD

The present invention belongs to the technical field of mosaic wall panels, in particular to a spliced wall panel.

BACKGROUND OF THE INVENTION

Upon completion of manhole cover construction on pavement, it is necessary to concrete the manhole cover and place a warning board around it to prevent vehicles or pedestrians from getting close to it.

Moreover, in the prior art, when wall panels need to be installed outside the internal pipelines in the manhole cover, customized wall panels are required to match the different pipeline sizes, which is time-consuming, laborious and expensive.

SUMMARY OF THE INVENTION

The present invention provides a spliced wall panel characterized by diversified combinations, simple structure, and easy disassembly and assembly to overcome the problems of the prior art.

To achieve the above purpose, the present invention adopts a technical solution as follows: a spliced wall panel comprises at least one layer of frame bodies stacked in sequence; the frame body is formed by splicing several boards sequentially, and buckles are provided at the joint of adjacent boards; inclined structures are oppositely arranged on both sides of the board, and a positioning protrusion and a positioning groove that fit each other are formed on the oppositely arranged inclined structures respectively; a horizontal mounting groove is formed on the top of the inner wall of the board, and a mating groove matching the mounting groove is formed on the outer wall at the bottom of the board; Fitting blocks that match the buckles are formed on both sides of the outer wall of the board.

As a preferred solution of the present invention, the inclination angles of inclined structures match the number of boards.

As a preferred solution of the present invention, the positioning protrusion and the positioning groove are at the upper end of the board and also at the joints between the board and inclined structures.

As a preferred solution of the present invention, a clamping slot and a bump that fit each other are formed on the oppositely arranged inclined structures respectively.

As a preferred solution of the present invention, a convex rib and a long slot that fit each other are formed on the oppositely arranged inclined structures respectively and are arranged along the height directions of the inclined structures.

As a preferred solution of the present invention, the mounting groove and the mating groove have the same depth and the sum of the width of the mounting groove and that of the mating groove equals the thickness of the board.

As a preferred solution of the present invention, a buckle is a U-shaped structure with an opening in the middle and two incurvate side edges.

As a preferred solution of the present invention, fitting blocks on the adjacent boards are in contact with each other and are consistent with the opening size of buckles.

As a preferred solution of the present invention, reinforcing ribs are arranged in an array on the outer wall of the board.

As a preferred solution of the present invention, the mounting groove, the mating groove and the board have the same length.

Compared with the prior art, the present invention has the following benefits: The frame structure formed from multiple boards meets the requirements of the wall panel and can be stacked into a multi-layer frame structure based on actual needs, thus heightening the overall wall panel and meeting diversified design needs. The multiple clamping between adjacent inclined structures allows high stability of adjacent boards and thereby the overall product safety and reliability.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a structural schematic diagram of a board.

FIG. 2 is a top view of a board.

FIG. 3 is a rear view of a board.

FIG. 4 is a structural schematic diagram of a buckle.

FIG. 5 is a structural schematic diagram of embodiment 1.

FIG. 6 is a structural schematic diagram of embodiment 2.

FIG. 7 is a structural schematic diagram of embodiment 3.

FIG. 8 is a structural schematic diagram of embodiment 4.

FIG. 9 is a structural schematic diagram of embodiment 5.

FIG. 10 is a structural schematic diagram of embodiment 6.

Description of figures in the drawings: buckle 1, incurvate edge 1-1, board 2, inclined structure 3, positioning groove 4, positioning protrusion 5, mounting groove 6, mating groove 7, bump 8, clamping slot 9, long slot 10, convex rib 11, fitting block 12, reinforcing rib 13.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The embodiments of the present invention will be described in detail in combination with drawings.

As shown in FIGS. 1-4 , a spliced wall panel comprises at least one layer of frame bodies stacked in sequence; the frame body is formed by splicing several boards 2 sequentially, and a buckle 1 is provided at the joint of adjacent boards 2; inclined structures 3 are oppositely arranged on both sides of a board 2, and a positioning protrusion 5 and a positioning groove 4 that fit each other are formed on the oppositely arranged inclined structures 3 respectively; a horizontal mounting groove 6 is formed on the top of the inner wall of the board 2, and a mating groove 7 matching the mounting groove 6 is formed on the outer wall at the bottom of the board 2; and a fitting block 12 that matches the buckle 1 is formed on both sides of the outer wall of the board 2.

The height of a wall panel is set according to actual needs and can be reached by stacking multiple layers of frame bodies. The enclosed frame structure can be set into rectangular, triangular, pentagonal, hexagonal, etc. based on actual needs.

The inclination angles of the inclined structures 3 match the number of boards 2. For example, when the frame structure is rectangular, the included angles between the inclined structures 3 and the thickness direction of the boards 2 are 45°, and the adjacent boards 2 are set vertically at the splice to meet the needs of the rectangular structure. When the frame structure is triangular, the included angles between the inclined structures 3 and the thickness direction of the boards 2 are 60°. When the frame structure is pentagonal, the included angles between the inclined structures 3 and the thickness direction of the boards 2 are 36°. When the frame structure is hexagonal, the included angles between the inclined structures 3 and the thickness direction of the boards 2 are equal to 180° divided by the number of boards 2.

The positioning protrusion 5 and the positioning groove 4 are located at the upper end of the board 2 and also at the joints between the board 2 and inclined structures 3. When the surfaces of the adjacent inclined structures 3 are in contact at the splice of the adjacent boards 2, the positioning protrusion 5 is embedded in the positioning groove 4.

A clamping slot 9 and a bump 8 that fit each other are formed on the oppositely arranged inclined structures 3 respectively. Similarly, when the surfaces of the adjacent inclined structures 3 are in contact at the splice of the adjacent boards 2, the bump 8 is embedded in the clamping slot 9. A clamping slot 9 and a bump 8 are formed respectively at the upper and lower ends of one inclined structure 3, opposite to the positions of the clamping groove 9 and the bump 8 on the other oppositely arranged inclined structure 3.

A convex rib 11 and a long slot 10 that fit each other are formed on the oppositely arranged inclined structures 3 respectively and are arranged along the height directions of the inclined structures 3. Similarly, when the surfaces of the adjacent inclined structures 3 are in contact at the splice of the adjacent boards 2, the convex rib 11 is embedded in the long slot 10.

The mounting groove 6 and the mating groove 7 have the same depth and the sum of the width of the mounting groove 6 and that of the mating groove 7 equals the thickness of the board. For the stacking of the boards 2, the lower end of the upper board 2 is embedded in the mounting groove 6 of the lower board 2 to make them stably stacked.

A buckle 1 is a U-shaped structure with an opening in the middle and two incurvate side edges 1-1. The incurvate edges can clamp the fitting block 12 in the buckle 1, and the fitting blocks 12 on the adjacent boards 2 are in contact and have the same size as the openings of buckles 1.

Reinforcing ribs 13 are arranged in an array on the outer wall of the board 2.

The mounting groove 6, the mating groove 7 and the board 2 have the same length.

As shown in FIG. 5 , in embodiment 1, the frame body is a square structure formed by splicing four boards 2 of the same length.

As shown in FIG. 6 , in embodiment 2, the frame body is a square structure formed by stacking the frame bodies that are the same on both sides, and each layer of the frame body is formed by splicing four boards 2 of the same length.

As shown in FIG. 7 , in embodiment 3, the frame body is a rectangular structure formed by pairwise splicing of the boards 2 with opposite sides of the same length.

As shown in FIG. 8 , in embodiment 4, the frame body is a rectangular structure formed by stacking the frame bodies that are the same on both sides, and each layer of the frame body is formed by pairwise splicing of the boards 2 with opposite sides of the same length.

As shown in FIG. 9 , in embodiment 5, the frame body is a rectangular structure formed by pairwise splicing of the boards 2 with opposite sides of the same length. The long side of this embodiment is longer than that of embodiment 3.

As shown in FIG. 10 , in embodiment 6, the frame body is a rectangular structure formed by stacking the frame bodies that are the same on both sides, and each layer of the frame body is formed by pairwise splicing of the boards 2 with opposite sides of the same length. The long side of this embodiment is longer than that of embodiment 4.

The above description of the disclosed embodiments enables the professional technicians in the technical field to realize or use the present invention. Various modifications to these embodiments will be obvious to the professional technicians in the technical field. The general principle defined herein can be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention will not be limited to the embodiments provided herein, but should conform to the widest scope consistent with the principles and novel features disclosed herein.

Although many figures are used in the drawings, including buckle 1, incurvate edge 1-1, board 2, inclined structure 3, positioning groove 4, positioning protrusion 5, mounting groove 6, mating groove 7, bump 8, clamping slot 9, long slot 10, convex rib 11, fitting block 12 and reinforcing rib 13, the possibility of using other terms is not ruled out. These terms are only used for the convenience of describing and explaining the essence of the present invention. It is against the spirit of the present invention to interpret them as any additional restriction. 

1. A spliced wall panel, characterized in that it comprises at least one layer of frame bodies stacked in sequence; the frame body is formed by splicing several boards (2) sequentially, and a buckle (1) is provided at the joint of adjacent boards (2); inclined structures (3) are oppositely arranged on both sides of a board (2), and a positioning protrusion (5) and a positioning groove (4) that fit each other are formed on the oppositely arranged inclined structures (3) respectively; a horizontal mounting groove (6) is formed on the top of the inner wall of the board (2), and a mating groove (7) matching the mounting groove (6) is formed on the outer wall at the bottom of the board (2); and a fitting block (12) that matches the buckle (1) is formed on both sides of the outer wall of the board (2).
 2. A spliced wall panel of claim 1, characterized in that the inclination angles of inclined structures (3) match the number of boards (2).
 3. A spliced wall panel of claim 1, characterized in that the positioning protrusion (5) and the positioning groove (4) are at the upper end of the board (2) and also at the joints between the board (2) and inclined structures (3).
 4. A spliced wall panel of claim 1, characterized in that a clamping slot (9) and a bump (8) that fit each other are formed on the oppositely arranged inclined structures (3) respectively.
 5. A spliced wall panel of claim 4, characterized in that a convex rib (11) and a long slot (10) that fit each other are formed on the oppositely arranged inclined structures (3) respectively and are arranged along the height directions of the inclined structures (3).
 6. A spliced wall panel of claim 1, characterized in that the mounting groove (6) and the mating groove (7) have the same depth and the sum of the width of the mounting groove (6) and that of the mating groove (7) equals the thickness of the board.
 7. A spliced wall panel of claim 1, characterized in that a buckle (1) is a U-shaped structure with an opening in the middle and two incurvate side edges (1-1).
 8. A spliced wall panel of claim 7, characterized in that the fitting blocks (12) on the adjacent boards (2) are in contact with each other and are consistent with the opening size of the buckles (1).
 9. A spliced wall panel of claim 1, characterized in that reinforcing ribs (13) are arranged in an array on the outer wall of the board (2).
 10. A spliced wall panel of claim 1, characterized in that the mounting groove (6), the mating groove (7) and the board (2) have the same length. 